Weighing Indicator

Weighing Indicator

WM+PD4000508

This manual and Marks All safety messages are identified by the following, “WARNING” or “CAUTION”, of

ANSI Z535.4 (American National Standard Institute: Product Safety Signs and Labels). The meanings are as follows:

WARNING A potentially hazardous situation which, if not avoided, could result in death or serious injury.

CAUTION A potentially hazardous situation which, if not avoided, may result in minor or moderate injury.

This is a hazard alert mark.

This manual is subject to change without notice at any time to improve the

product. The product specifications are subject to change without any obligation on the

part of the manufacturer. Under the copyright laws, the instruction manual and the software (program)

described in it are copyrighted, with all rights reserved.

2004 All rights reserved.

AD-4407 Weighing Indicator, Instruction Manual, A&D Co., ltd.

Contents

1. Compliance.................................................................................................................. 3

1.1.1. Compliance with FCC Rules.......................................................................... 3

1.1.2. Compliance with European Directives ........................................................... 3

2. Introduction .................................................................................................................. 4

3. Installation and Precautions......................................................................................... 5

3.1.1. Installation and Precautions........................................................................... 5

3.1.2. The Load Cell Connections ........................................................................... 5

3.1.3. Adjustment of the Load Cell Output............................................................... 6

3.1.4. Verifying Load Cell Output and Input Sensitivity ............................................ 6

3.1.5. Installing an Option board.............................................................................. 7

4. Description of Panels and symbols .............................................................................. 8

4.1.1. Front Panel Description ................................................................................. 8

4.1.2. Rear Panel Description.................................................................................. 9

4.1.3. Other Displays and Symbols ....................................................................... 10

4.1.4. Accessories and Options ............................................................................. 10

5. Calibration.................................................................................................................. 11

5.1.1. Items of Calibration Mode............................................................................ 11

5.2. Calibration Procedure ......................................................................................... 12

5.2.1. Configuring a Weighing Instrument.............................................................. 12

5.2.2. To Get Stabilized Data................................................................................. 14

5.2.3. Zero Calibration ........................................................................................... 15

5.2.4. Span Calibration .......................................................................................... 15

5.2.5. Exiting the Calibration Mode........................................................................ 16

5.3. Weighing Range Function................................................................................... 17

5.3.1. Selecting the Division and Range................................................................ 18

5.4. Digital Linearization Function.............................................................................. 18

5.5. Gravity Compensation Function.......................................................................... 19

5.5.1. The Gravity Acceleration Table ................................................................... 20

5.6. Calibration Error Code List.................................................................................. 21

6. Functions ................................................................................................................... 22

6.1. Changing the Function Settings.......................................................................... 22

6.2. F-Functions......................................................................................................... 23

6.3. CF-Functions ...................................................................................................... 30

7. Tare ........................................................................................................................... 31

8. Accumulation ............................................................................................................. 32

8.1.1. Preparation and Specification...................................................................... 32

8.1.2. Display and Operation ................................................................................. 33

9. Code Memory ............................................................................................................ 34

AD-4407 Weighing Indicator

9.1.1. Using Code Memory .................................................................................... 35

10. Comparison................................................................................................................ 36

10.1. Weight Check Mode............................................................................................ 36

10.1.1. Condition Formula for Comparison.............................................................. 37

10.1.2. Setting the Upper/Lower Limit Values.......................................................... 37

10.2. Setpoint Comparison .......................................................................................... 39

10.2.1. Description of Input parameters and Outputs .............................................. 39

10.2.2. Simple Batch ............................................................................................... 40

10.2.3. Setting the Parameters of Setpoint Comparison.......................................... 41

11. Hold Function............................................................................................................. 42

11.1.1. Setting the Hold Functions........................................................................... 42

12. Counting Function...................................................................................................... 44

12.1. Using the Counting Function............................................................................... 44

12.2. Unit Weight Registration ..................................................................................... 44

13. RS-232C Interface ..................................................................................................... 46

13.1. Specification ....................................................................................................... 46

13.2. Data Format........................................................................................................ 47

13.3. Command Format............................................................................................... 47

13.3.1. Command to Request Data ......................................................................... 48

13.3.2. Commands to Control the Indicator ............................................................. 49

13.3.3. Commands to Set Parameters .................................................................... 51

13.3.4. Commands for Hold Function ...................................................................... 52

13.3.5. Commands to Set Serial Data Output Format (UFC)................................... 52

13.4. UFC Command................................................................................................... 53

14. RS-422/RS-485, Relay Output(OP-03) ...................................................................... 55

15. Relay Output & Control Input (OP-05) ....................................................................... 57

16. 4-20mA Analog Output (OP-07)................................................................................. 58

17. Current Loop Output (OP-08)..................................................................................... 59

18. Specifications............................................................................................................. 61

18.1. Dimensions ......................................................................................................... 62

AD-4407 Weighing Indicator Page 3

1.1.1.1. ComplianceComplianceComplianceCompliance

1.1.1. Compliance with FCC Rules

Please note that this equipment generates, uses and can radiate radio frequency

energy. This equipment has been tested and has been found to comply with the

limits of a Class A computing device pursuant to Subpart J of Part 15 of FCC rules.

These rules are designed to provide reasonable protection against interference

when this equipment is operated in a commercial environment. If this unit is

operated in a residential area it may cause some interference and under these

circumstances the user would be required to take, at his own expense, whatever

measures are necessary to eliminate the interference.

(FCC = Federal Communications Commission in the U.S.A.)

1.1.2. Compliance with European Directives

This appliance complies with the statutory EMC (Electromagnetic Compatibility)

directive 89/336/EEC and the Low Voltage Directive 73/23/EEC for safety of

electrical equipment designed for certain voltages.

Note: The displayed value may be adversely affected under extreme electromagnetic

influences.

1. Compliance


2.2.2.2. IntroductionIntroductionIntroductionIntroduction

The AD-4407 is a weighing indicator that amplifies signals from a load cell,

converts it to digital data and displays it as a mass value.

This indicator has the following performance:

Input sensitivity: .........................0.25 �V /division.

Maximum display: ......................40000 divisions.

Refresh rate of the display: ........10 times/second approximately.

Input voltage range: ................... -1 mV ~ +15 mV.

The following standard functions are available:

The HiHi / Hi / OK / Lo / LoLo limit comparison to check a mass value.

The setpoint comparison for batching applications.

The counting function for piece counting.

The preset tare function.

There are four code memories to store the above mentioned data.

The accumulation function to totalize these mass values and to count the

number of accumulations.

The hold function enables weighing a living animal.

UFC (Universal Flex Coms) function to customize the protocol of outputting data

using the serial interface.

0 - 9 keys enables easy operation, such as specifying comparator values.

IP-67 dust & water-proof stainless housing.

There are the following interfaces:

One interface can be installed in the indicator at a time.

An RS-232C serial interface is standard, to communicate with a computer,

printer or a remote display. This interface outputs data and can request weight

data, enter parameters and control the state of the indicator.

RS-422/485 and 3-Relay Outputs (Option: OP-03)

RS-232C, 3-Relay Outputs and 3-Control Inputs (Option: OP-05)

RS-232C, Current Loop Output, 3-Relay Outputs and 1-Control Input (Option:

OP-08)

Analog Output (4-20mA) (Option: OP-07)

The calibration function includes the following functions:

Setting the minimum division (weighing interval) and the maximum capacity.

Zero and span calibration.

The weighing range function of the multi-interval weighing instrument (scale).

Digital linearization function.

Gravity compensation function.

2. Introduction


3.3.3.3. Installation and PrecautionsInstallation and PrecautionsInstallation and PrecautionsInstallation and Precautions

3.1.1. Installation and Precautions

The weighing indicator is a precision electronic instrument. Handle it carefully.

The operating temperature is -10°C to +40°C (14°F to 104°F).

Do not install the scale in direct sunlight.

Mis-operation or other problems may be caused by an unstable power source including

momentary power failure or instantaneous noise. Use a stable power source.

Do not connect the power cord before the installation has been completed.

Verify that the local voltage and receptacle type are correct for your scale.

Use shielded cable for all connections. Connect the cable shields to the shield

terminal or case as an earth terminal.

Earth ground the indicator. Do not join the earth ground line with other electrical

power equipment. (Example: There is an earth ground terminal at the power cord receptacle.)

Do not install the indicator in a place where it is apt to be charged with static

electricity, or where the relative humidity is lower than 45%RH. Plastic and insulating

materials are apt to be charged with static electricity.

3.1.2. The Load Cell Connections

Connect the load cell cable to the terminal as shown below.

It is possible to connect a 4 wire cable provided that pins 1-2 and pins 3-4 are

shorted, if the distance between the indicator and a load cell is shorter than 5m.

The output voltage of a load cell is a very sensitive signal. Space the load cell cable

away from any noise source.

It is possible to connect eight 350ohm load cells.

The load cell drive is 5VDC 5% between EXC+ and EXC-, the maximum current

120mA.

3. Installation and Precaution

Loadcell

Cable

Positive Signal In

Negative Signal In

Negative Sense

Negative Excitation

Positive Excitation

Positive Sense

Shield

Standard connection

1

2

3

4

5

6

7

Cable

Shield

Available connection for

a cable shorter than 5m.

1

2

3

4

5

6

7


3.1.3. Adjustment of the Load Cell Output

Caution Use a metal film resistor in the range of 50kohm to 500kohm with a

good temperature coefficient, when adding a resistor to adjust a load

cell output. Use as large of a resistance value as possible in the range

in which the zero adjustment is possible. Solder this resistor at a point

near the load cell or the indicator.

In Case of Reducing the Output Voltage

When the zero output is too large, add a resistor

between EXC+ and SIG-.

In Case of Adding an Offset Voltage to the Output

When the zero output is too small, add a resistor

between EXC+ and SIG+.

3.1.4. Verifying Load Cell Output and Input Sensitivity

The input sensitivity of the indicator is 0.25�V /division or more. Adapt to the following

inequality, when you design a weighing instrument using the indicator and load cell(s).

Caution A change in input voltage sensitivity is required to cause a one division

change of the display. Select as large an input sensitivity voltage as

possible so that the weighing interval becomes stable.

Consider the leverage if a lever is used.

Weighing instrument

using one load cell. A

DBE ��25.0

Weighing instrument

using multi-load cell NA

DBE

�

��25.0

A: Rated capacity of load cell [kg]

B: Rated output [mV/V]

D: Weighing interval [kg]

E: Excitation voltage [mV]

N: Number of load cells

Verification Example

Design: Load cell N=1

Rated capacity A=750 [kg]

Rated output B=3 [mV/V]

Excitation voltage E=5000 [mV] Weighing interval D=0.05 [kg] Weighing capacity 300 [kg]

25.01750

05.035000��

��. Therefore,

regard the instrument as a good design.


Loadcell Additionalresistance

Loadcell Additionalresistance


3.1.5. Installing an Option board

Caution Do not remove any screws without the following step.

This is the procedure for the data output board (OP-03, OP-05, OP-07 and OP-08).

Step 1 Remove the power cord from the AC power source.

Step 2 Remove eight hex bolts (one of them is the sealing bolt) from the rear panel.

Step 3 Remove the rear panel carefully as there are cables between the front unit and the

rear panel.

Step 4 Place the option board on the option board space in the rear panel and secure it

with screws.

Step 5 Connect the option cable(s) between the option board and the main board in the

front unit.

OP-03(RS-422/485, Relay output) J2 - Main board J2

J3 - Main board J5

OP-05(RS-232C, I/O) J5 - Main board J5

OP-07(4-20mA Analog output) J2 - Main board J2

J5 - Main board J5

OP-08(RS-232C, CL, I/O) J5 - Main board J5

Step 6 Pass the interface cable through the cable clamper to the external equipment.

Step 7 Connect the interface cable to the option board connector or terminal block.

Step 8 Place the rear panel on the front unit, and secure using the bolts removed in Step 2.

Step 9 After powered on, enter the F-functions and store the F30's parameters.

For OP-03, OP-05 and OP-08, there are parameters in “serial”.

For OP-07, there are parameters in “analog”.



4.4.4.4. Description of Panels and symbolsDescription of Panels and symbolsDescription of Panels and symbolsDescription of Panels and symbols

4.1.1. Front Panel Description

No. Name Description

1 STABLE Indicates when the display is stable.

2 NET Indicates when the weight is net weight.

3 ZERO Indicates when the display weight is in the Zero range.

PT Indicates when the PRESET TARE value is being used.

READY Indicates the state of comparison or batching.

M+ (Accumulation) Indicates when there is a result of addition or accumulation. 4

Triangle 1,2,3 Depending on the function selected, indicates various states.

5 Main display Displays the weight data, stored parameters and accumulated result.

6 UNIT part Unit used to weigh.

7 HI/OK/LO Indicates the results of comparison.

8 Capacity label Capacity and division are described

9 CODE key The key to select the code memory.

SAMPLE key The key to store the unit weight for counting function.

SETPOINT key The key to store the comparator value.

PT key The key to store the PRESET TARE value.

TOTAL key The key to display the total weight.

M+ key The key to display the total weight.

START key The key to start comparison / batch weighing.

STOP key The key to stop comparison / batch weighing.

MODE key The key to switch the unit used to weigh.

0 – 9 key The numerical keys.

A – F key The key to enter a value (press NET/GROSS key at a time).

ZERO key The key to zero the current display.

CLEAR key The key to clear the data.

TARE key The key to perform tare.

� �

�

�

�

�

�

�

TOTAL

PRINT

4. Description of panels and symbols


9 ESC key The key to proceed to the next step without changing the data.

NET/GROSS key The key to select net or gross weight in the display.

+/- key The key to select the sign of a value.

ENTER key The key to confirm parameters and stores the data.

PRINT key The key to output data (press quickly).

ON/OFF key The key to turn the indicator on and off (OFF: hold for 3 seconds).

4.1.2. Rear Panel Description

No. Name Description

10 Adjustment knob Adjust the viewing angle.

11 Power cable Connect to the AC power source.

12 CAL switch (cover) CAL switch is located inside the panel.

13 Grounding terminal Connect to earth ground.

14 Load cell cable cramp Tighten to protect from water and dust.

15 Interface cable cramp Tighten to protect from water and dust.

Caution Please confirm that the receptacle type and local voltage is correct for

your indicator (scale).


10

11

12

13

14

15


4.1.3. Other Displays and Symbols

Standby display.

Zero error when turning the display on. If the ESC key is

pressed, the current weighing value may be displayed.

Over load display. Remove any load from the load cell

immediately. It may cause damage to the load cell(s).

Example of an error display.

4.1.4. Accessories and Options

Instruction manual 1

Time lag fuse 1 FS-EAWK-200MA

200mA or 315mA FS-EAWK-315MA

Function seal 1

Capacity label 1

Accessories

Blanket 1

Caution Please confirm that the receptacle type and local voltage is correct for

your indicator (scale).

OptionsOptionsOptionsOptions

OP-03 (AD-4407-03) RS-422/485 Interface, 3-Relay outputs

OP-05 (AD-4407-05) RS-232C Interface, 3-Relay outputs and 3-Control inputs

OP-07 (AD-4407-07) 4-20mA Analog output

OP-08 (AD-4407-08) RS-232C Interface, 20mA current loop output, 3-Relay outputs

and 1-Control input

One option can be installed at a time, by exchanging with the standard RS-232C interface.



5.5.5.5. CalibrationCalibrationCalibrationCalibration

This indicator, converts an input voltage from a load cell to the "mass" value, and

displays it. Calibration is the adjustment function so that the scale (indicator) can

display the weight correctly.

5.1.1. Items of Calibration Mode

There are four items in the calibration function in the procedure.

How to calibrate: In weighing mode, press the CAL key. After Cal in is displayed

for 2 seconds Cal 0 will appear. Then the required items should be selected and

displayed with the MODE key, then executed by pressing ENTER key.

NOTE: Calibration could be started by simultaneously pressing the ZERO and TARE key,

instead of CAL key. However, in some cases, the procedures are altered to nullify this

option. Furthermore, this option is not available with Stamping type version setting.

Required Items

Cal 5et Store capacity, resolution, alignment of decimal point position and

display format, weighing range and unit. These items should be input

first in order for the indicator to function as a weighing instrument.

These parameters do not need to be changed again unless the

indicator itself is replaced. For details, refer to “5.2.1.Configuring a

Weighing Instrument”.

Cal 0 Calibrates zero and span. This is required after installation, to get

accurate data. For details, refer to “5.2.3. Zero Calibration” and “5.2.4.

Span Calibration”.

Optional Items (Sub-functions)

lnr 0 Performs digital linearization. Refer to “5.4.Digital Linearization

Function”.

g 5et Compensates for acceleration of gravity. Refer to “5.5. Gravity

Compensation Function”.

Gravity compensation function: Compensates for weighing error

between the calibration location and other weighing location using

gravity acceleration.

In the calibration mode the keys have functions as follows:

0 - 9 Numerical keys.

MODE The key to display other items.

CLEAR The cancel key at inputting data, initial data and changing mode.

+/- The key to display other parameters.

ESC The key to proceed to the next step without changing them.

ENTER The key to store new calibration data and proceeds to the next step.

CAL The key to store all data into memory and display Caloff after the

calibration mode. And press the ON/OFF key to turn off the display.

5. Calibration


Note that the ON/OFF key does not function alone. Press the ESC key while

holding the ON/OFF key to end the calibration mode, if mis-operation. After

displaying Can5el, press the ON/OFF key to stop calibration mode and to

turn the indicator off.

NOTE: When displaying Caloff , press the +/- key while pressing the ON/OFF key,

instead of CAL key.

Caution The maximum display is less than or equal to 40000 divisions. This

number is calculated from the maximum capacity divided by the

minimum division.

Check the accuracy of weighing instrument periodically.

Recommended mass, use a mass heavier than 2/3 maximum capacity.

Calibrate the scale, if it is moved to other location or the environment

has changed.

It is not necessary to input the gravity acceleration correction, when

calibrating the scale with a calibration mass at the place where the

scale is used.

Enter the stable weighing data while the STABLE mark is displayed. If

unstable data is used, it may cause a weighing error. Arrange the

condition using the F00 filter function.

The span calibration needs the zero calibration data. We recommend

that you perform the span calibration immediately after the zero

calibration.

If you use the dual range function of the multi-interval scale, perform

the "Range Function", "Zero Calibration" and "Span Calibration".

5.2.5.2.5.2.5.2. Calibration ProcedureCalibration ProcedureCalibration ProcedureCalibration Procedure

5.2.1. Configuring a Weighing Instrument

This section explains how to specify capacity, resolution, decimal point position and

display format, weighing range and unit. Perform this procedure when installing the

indicator.

When Cal5et is displayed, enter this mode by pressing of the ENTER key.

Specify the range and unit.

5. Calibration


Single Range

Select resolution and decimal point position and format. � Specify the weighing capacity.

Dual Range

<First range> Select the resolution, decimal point position and format. �

<First range> Select the weighing range �

<Second range> Select the resolution �

<Second Range> Specify the weighing capacity

For the range function, refer to “5.3. Weighing Range Function”.

Specifying the Range and UnitSpecifying the Range and UnitSpecifying the Range and UnitSpecifying the Range and Unit

Step 1 The range and unit of measure are displayed.

Range display : 5ingl : single range

dUal : dual range

To change the range function, use the CLEAR key

Unit display: The active unit is displayed. The unit can be changed such as

kg or lb. The calibration is performed with displayed unit.

Press the MODE key to select a unit and to select a unit for calibration,

use the +/- key. The unit for calibration (first unit) is displayed and the

alternate unit (second unit) is blinking.

ENTER The key to store the data displayed and proceed to the next step.

ESC The key to proceed to the next step without changing them.

Specifying the Resolution, Decimal Point Position anSpecifying the Resolution, Decimal Point Position anSpecifying the Resolution, Decimal Point Position anSpecifying the Resolution, Decimal Point Position and Formatd Formatd Formatd Format

Step 2 The resolution will be displayed as d 0.1 with decimal point. The indicator displays

triangle 1 and the first unit selected at the previous step. Specify the position of

the decimal point with the MODE key. Specify the display format (point or comma)

with the +/- key. Specify the resolution with CLEAR key. The decimal point format

is specified in step. The decimal point format for serial data output is selected

using the F-function settings. Press the ENTER key to store them and proceed to

the next step. When pressing the ESC key, regardless of what is displayed, the

indicator will proceed to the next step without changing them.

5.2. Calibration Procedure


Specifying the Weighing Range of the First RangeSpecifying the Weighing Range of the First RangeSpecifying the Weighing Range of the First RangeSpecifying the Weighing Range of the First Range

Step 3 After displaying Cap for 2 seconds, single range or the weighing capacity will be

displayed. When dual range is used, Cap1 is displayed for 2 seconds. Triangle

1 will be displayed. Specify data with the 0 - 9 keys and press the ENTER key to

store it and proceed to the next step. When pressing the ESC key, regardless of

what is displayed, the indicator will proceed to the next step without changing it.

The next step is Zero Calibration in single range or the second range resolution in

dual range.

Specifying the Second Range ResolutionSpecifying the Second Range ResolutionSpecifying the Second Range ResolutionSpecifying the Second Range Resolution

Step 4 After displaying range2 for 2 seconds, the resolution with decimal point and

triangle 2 will be displayed. Specify the second range resolution in the same

way as the first range. The decimal point cannot be moved. Specify the second

range resolution greater than the first range. Press the ENTER key to store them

and proceed to the next step. When pressing the ESC key, regardless of what is

displayed, the indicator will proceed to the next step without changing them.

Specifying the Second Range CapacitySpecifying the Second Range CapacitySpecifying the Second Range CapacitySpecifying the Second Range Capacity

Step 5 After displaying Cap2 for 2 seconds, the capacity with unit and decimal point is

displayed. Specify the capacity in the same way as the first range. The capactity

should be greater than the first range. Press the ENTER key to store it and proceed to

Zero Calibration. When pressing the ESC key, regardless of what is displayed, the

indicator will proceed to the next step without changing the parameter.

5.2.2. To Get Stabilized Data

Step 6 Maintain the following conditions to calibrate the scale (indicator) correctly.

Maintain a constant temperature, stable power and stable input voltage from the

load cell.

Avoid direct sunshine or the near the outlet of an air conditioner.

Do not install the scale (indicator) where there is a strong magnetic field.

Step 7 Turn the display on and leave it for several minutes.



5.2.3. Zero Calibration

Procedure

Step 8 Check the Cal 0 display.

Select a zero calibration method to adjust the zero point

Weighing input

(Normal way)

The adjustment method

with nothing on the

weighing unit.

To step 9

Digital input

The numerical way to

input a load cell output

voltage.

To step 10

Weighing Input

Step 9 Place nothing on the weighing unit. Press the ENTER

key after the STABLE mark has turned ON. The new

zero point parameter will be stored. Proceed to step11.

ESC key ..........The key not to change the zero point

data and proceed to the next step.

Caution Do not press the ENTER key while the STABLE

mark is off (detecting motion). Arrange the

condition using the F00 filter function.

Digital Input

Step10 Pressing the +/- key, a stored input voltage parameter

of the zero point is displayed in the unit of mV/V. Adjust

the input voltage using the 0 - 9 keys.

ENTER.......The key to store the zero point parameter

and proceed to the next step.

ESC key.....The key to proceed to the next step without

changing the parameter.

5.2.4. Span Calibration

Step11 Check the capacity display after Cal f is displayed for 2 seconds.

Select a span calibration method to adjust the capacity.

Weighing a mass less than the

maximum capacity

The method to weigh a mass less

than the maximum capacity. To step 12

Weighing maximum capacity

mass

The method to weigh a mass

equivalent to the maximum capacity. To step 14

Digital input The numerical way to enter a load

cell output voltage. To step 16


Zero calibration

Place nothing on the weighing unit

(No load)

Turn on STABLE mark

Stored input voltage

New input voltage

mV/V

mV/V

To Span Calibration

+/+/+/+/----

NET/GROSS

PRINT

ENTER

PRINT

ENTER

9

0


Weighing a Mass Weighing a Mass Weighing a Mass Weighing a Mass except the except the except the except the Maximum CapacityMaximum CapacityMaximum CapacityMaximum Capacity

Step12 Specify a mass value using 0 - 9 keys.

Step13 Place a mass equivalent to displayed value

on the weighing unit. Proceed to step 15.

Weighing Capacity Mass

Step14 Place a mass equivalent to the maximum

capacity on the weighing unit.

Step15 Press the ENTER key after the STABLE

mark turns on. Proceed to step 17.

ESC key ..........The key to proceed to step17

without changing the span

parameters.

Caution Do not press the ENTER key while the

STABLE mark is off (detecting motion).

Arrange the condition using the F00

filter function.

Digital Input

Step16 Pressing the +/- key, a stored input voltage

parameter of the span is displayed in the

unit of mV/V. Adjust the input voltage

using the 0 - 9 keys. (It is possible to store

a greater value than the capacity.)

ENTER key......The key to store the span

parameters and proceed to

step 17.

ESC key ..........The key to proceed to step

17 without changing the span

parameters.

5.2.5. Exiting the Calibration Mode

Step17 Check the Calend display.

Use the following keys.

CAL key ..... To store the parameters and display

Caloff. Proceed to the next step.

Caloff could be displayed by pressing

the +/- key while pressing the ON/OFF key

instead of CAL key.


Turn on STABLE mark

Span calibration

Maximum capacity

To step 14, step 16

To step 12

New mass value

Mass of

maximum capacity

To step 14

To step 16 Place the displayed

mass on the weighing unit

step 13step 14

Stored input voltage

New input voltage

mV/V

mV/V

Turn display off

90

90

+/+/+/+/----

NET/GROSS

PRINT

ENTER

PRINT

ENTER

PRINT

ENTER

+/+/+/+/----

NET/GROSSPRINT

ENTER

or


ESC key ..... The key to store the parameters temporarily. Proceed to the Cal 0

display.

Press and hold the ON/OFFkey and press the ESC key

No parameters are changed,

CanCel is displayed and the calibration mode is finished.

Step18 Press the ON/OFF key to turn the display off.

5.3.5.3.5.3.5.3. WeighingWeighingWeighingWeighing Range Function Range Function Range Function Range Function

The weighing range function can select "single range" and "dual range". Specify each

weighing interval (division) for the multi-interval instrument. Each weighing interval is

displayed according to a net value or gross value.

Caution When single range is used, this function is not used.

Example 1 The gross display.

Specified parameters:

First range Range = 50.00kg, division 0.02kg

Second range Range = 100.00kg (maximum capacity), division 0.1kg

Display

0kg to 50kg : The first range, division 0.02kg.

50kg to 100kg : The second range, division 0.1kg.

Division = 0.02kg Division = 0.1kg

0kg 50kg 100kg Gross

Weighing value

Example 2 The net display using a 40kg tare value.

Specified parameters: The same parameters as example 1.

Display

-40kg to 50kg : The first range, division 0.02kg.

50kg to 60kg : The second range, division 0.1kg.

Division = 0.02kg Division=0.1kg

-40kg 0kg 50kg 60kg Net

Tare value 90kg 100kg Gross 40kg Weighing value

5.3. Weighing Range Function


5.3.1. Selecting the Division and Range

Consider the following rules to design the weighing range.

Rule 1 Select the division and range of each weighing range so as to fit the following inequality.

The first range < the second range

The division of the next weighing range is automatically set larger than the division

of the lower weighing range. And the division can change.

Rule 2 When specifying the dual range, the upper limit value of the second range

becomes the maximum capacity.

Rule 3 Select a resolution smaller than 40000. The resolution is a value that divides the

maximum capacity by the minimum division of the first range.

5.4.5.4.5.4.5.4. Digital Linearization FunctionDigital Linearization FunctionDigital Linearization FunctionDigital Linearization Function

Even if the zero and span calibration have been completed, there may still

remain a linearity deviation caused by the performance of the weighing unit. The

digital linearization function can rectify or reduce the linearity deviation using

weighing points during the zero and capacity. Up to three weighing points can be

specified.

Caution This function does not improve repeatability or hysteresis.

Use the mass on the condition that lnr 1lnr 1lnr 1lnr 1 < lnr 2lnr 2lnr 2lnr 2 < lnr 3lnr 3lnr 3lnr 3.

Do not press the ENTER key while the STABLE mark is off.

Step 1 Check the Cal 0 display. Press the MODE key to display lnr 0 .

Step 2 Enter zero point. Refer to “5.2.3. Zero Calibration”.

Step 3 The value of the middle point is displayed after indicating lnr x. x is 1, 2 or 3.

The triangle mark of the same number(x) is displayed along with the value.

Step 4 Select a middle point.

If you want to cancel the current procedure, press the ESC key to finish this

function. Proceed to step 7 and other points are cleared (canceled).

Select a middle point value using the 0 - 9 keys. Proceed to step 5.

Step 5 Place a mass equivalent to the displayed value on the weighing unit. Press the

ENTER key after the STABLE mark has turned on. Proceed to step 6.

Step 6 If you include a 2nd and 3rd middle point, repeat steps 3, 4, 5 for each.

If you finish this function, proceed to step 7.

Step 7 Perform step 11 of "5.2.4. Span Calibration" immediately.

5.4. Digital Linearization Function


5.5.5.5.5.5.5.5. Gravity CGravity CGravity CGravity Compensation ompensation ompensation ompensation FFFFunctionunctionunctionunction

If the scale is used at the calibration location, it is not necessary to perform this function.

If there is a difference of gravity acceleration between the installed location and

calibration location it may cause a weighing error. This function specifies the

gravity acceleration and corrects the span error.

Note The decimal point is not displayed in the function. Example: 9798 = 9.798 m/s2

When span calibration is executed, the gravity acceleration correction will

be cleared and the two gravity acceleration values will return to the factory

settings.

Step 1 At the Cal 0 display, press the MODE key until g 5et is displayed and press the

ENTER key to enter the gravity compensation function.

If you want to cancel the current procedure, press and hold the ON/OFF key and press

the ESC key. Then, no parameters are changed and the calibration mode is finished.

Press the ON/OFF key to turn the display off after displaying CanCel.

Step 2 The parameter is displayed with triangle 1. Enter the gravity acceleration of the

calibration location using the 0 - 9 keys. The parameter xxxx is the gravity

acceleration.

ENTER key...The key to store the new gravity acceleration and proceed to step 3.

ESC key .......The key to return to g 5et without changing the value.

Step 3 The parameter is displayed with triangle 2. Enter the gravity acceleration of the

installed location using the 0 - 9 keys. The parameter xxxx is the gravity acceleration.

ENTER key...The key to store the new gravity acceleration and proceed to step 4.

ESC key .......The key to return to step 2 without changing the value.

Step 4 Now g xxxx is displayed. Press the CAL key to store the parameters. The Caloff is

displayed. Proceed to step5.

NOTE: When displaying Caloff , press the +/- key while pressing the ON/OFF key,

instead of CAL key.

Step 5 Press the ON/OFF key to turn the display off.

5.5. Gravity Compensation Function


5.5.1. The Gravity Acceleration Table

Amsterdam 9.813 m/s2 Manila 9.784 m/s2 Athens 9.800 m/s2 Melbourne 9.800 m/s2 Auckland NZ 9.799 m/s2 Mexico City 9.779 m/s2 Bangkok 9.783 m/s2 Milan 9.806 m/s2 Birmingham 9.813 m/s2 New York 9.802 m/s2 Brussels 9.811 m/s2 Oslo 9.819 m/s2 Buenos Aires 9.797 m/s2 Ottawa 9.806 m/s2 Calcutta 9.788 m/s2 Paris 9.809 m/s2 Chicago 9.803 m/s2 Rio de Janeiro 9.788 m/s2 Copenhagen 9.815 m/s2 Rome 9.803 m/s2 Cyprus 9.797 m/s2 San Francisco 9.800 m/s2 Djakarta 9.781 m/s2 Singapore 9.781 m/s2 Frankfurt 9.810 m/s2 Stockholm 9.818 m/s2 Glasgow 9.816 m/s2 Sydney 9.797 m/s2 Havana 9.788 m/s2 Tainan 9.788 m/s2 Helsinki 9.819 m/s2 Taipei 9.790 m/s2 Kuwait 9.793 m/s2 Tokyo 9.798 m/s2 Lisbon 9.801 m/s2 Vancouver, BC 9.809 m/s2 London (Greenwich) 9.812 m/s2 Washington DC 9.801 m/s2 Los Angeles 9.796 m/s2 Wellington NZ 9.803 m/s2 Madrid 9.800 m/s2 Zurich 9.807 m/s2

5.5. Gravity Compensation Function


5.6.5.6.5.6.5.6. Calibration Error Code ListCalibration Error Code ListCalibration Error Code ListCalibration Error Code List

Exiting from a calibration error

ESC key ..... The key to return the point where an error occurred. Retry the operation.

ESC key while pressing the ON/OFF key.

No parameters are changed, CAnCEL is displayed and the calibration

mode is finished. Press ON/OFF key to turn the display off.

Error Code List

If an error has occurred during the calibration mode, the following code is displayed.

Error code Description

err 0 In multi-interval scale. The last division is set to maximum ( d-50 ).

Therefore the next division can not be entered.

err 1 Resolution exceeds 40000. (Resolution = maximum capacity/ minimum

division) Reduce the maximum capacity or increase the minimum division.

err 2

err 3

Load cell output is too large or too small at zero calibration. Check the weighing

unit and load cell. Refer to "3.1.4.Verifying Load Cell Output and Input

Sensitivity".

err 4 Measuring calibration mass, the value exceeded maximum capacity. Reduce

the calibration mass.

err 5 The selected calibration mass is smaller than the minimum division.

err 6

The new input sensitivity is less than 0.2 �V/division. Increase the input

sensitivity.

Refer to "3.1.4.Verifying Load Cell Output and Input Sensitivity".

err 7

Placing a mass on the weighing unit, the load cell output becomes a negative

value. Check the load cell cable connections and the direction of load cell

mounting.

err 8

The load cell output exceeds the input range before reaching the maximum

capacity. Adjust zero balance referring to "3.1.4.Verifying Load Cell Output and

Input Sensitivity". Replace with a load cell designed for a smaller output.

Reduce maximum capacity.

err 9 The weight value is out of the input range at zero calibration or span

calibration. Check the weighing unit and cables.

err 12 The first weighing range is larger than second weighing range.

err 13 An incorrect mass was selected at the digital linearization function.

Select mass of the following relation. lnr 1 < lnr 2 < lnr 3.

g err An unacceptable value was selected in the gravity acceleration function.

5.6. Calibration Error Code List


6.6.6.6. FunctionsFunctionsFunctionsFunctions

There are two parameters lists, one for the F-functions and one for the CF-functions.

These functions control the indicator. The parameters of each function are stored in

the non-volatile memory, and are not lost even if power is turned off or cut off.

F-functions: These parameters can always be changed and are used for internal settings.

CF-functions: If you accept a certificated approval of the weighing instruments, the CAL

cover (rear panel) must be sealed. Therefore, accepting this approval, the

parameters of the CF-function can not be changed.

6.1.6.1.6.1.6.1. Changing the Function SettingsChanging the Function SettingsChanging the Function SettingsChanging the Function Settings

To enter the function settings, do either of the following.

1. When the display is off, press the ON/OFF key while pressing the +/- key.

2. When in the weighing mode, press both the +/- and ON/OFF keys at the same time.

When you are in the function setting, f00 will be displayed .

Operating Item

Step 1 Select an item using the 0 - 9 keys.

ENTER key The key to display a parameter of

the selected item.

Proceed to step 2.

ESC key To exit from functions and enter

the weighing mode.

CAL key The key to exchange F-functions

and CF-functions.

Operating parameter

Step 2 Select a parameter using the 0 - 9 keys.

ENTER key The key to store a parameter

and return step 1.

ESC key The key to return step 1

without changing the

parameter.

CLEAR key Changes the display to the

default value.(Type1)

Changes the sub item.(Type2,

Type3) Type2 and Type3 are

indicated in the parameter table.

Exit function setting

Press ESC key to go to the weight display when an item number is displayed.

6. Functions

Weighing

Weighing

+/+/+/+/----

NET/GROSS PRINT

ENTER

PRINT

ENTER

PRINT

ENTER PRINT

ENTER

TARE

ESC

9 0

9 0

+/+/+/+/----

NET/GROSSPRINT

ENTER


6.2.6.2.6.2.6.2. FFFF----FunctionsFunctionsFunctionsFunctions

Weighing Conditions (Digital Filter, Zero trucking and Stability)

Item Parameter Description

0 2 d/ 1.6s

1 4 d/ 1.6s

2 8 d/ 1.6s

3 16 d/ 1.6s

4 32 d/ 1.6s

5 64 d/ 1.6s

6 128 d/ 1.6s

7 2 d/ 3.2s

**8 4 d/ 3.2s

9 8 d/ 3.2s

10 16 d/ 3.2s

11 32 d/ 3.2s

12 64 d/ 3.2s

f00

Filter

Motion / Averaging

time

13 128 d/ 3.2s

If weak filter is set, the response

will be fast, but will be more

sensitive to external influences

such as vibration.

0 OFF

1 0.5 d/ 1s

2 1.0 d/ 1s

3 1.5 d/ 1s

4 2.0 d/ 1s

5 2.5 d/ 1s

6 0.5 d/ 2s

7 1.0 d/ 2s

**8 1.5 d/ 2s

9 2.0 d/ 2s

f01

Zero tracking

10 2.5 d/ 2s

This function traces the weight

value drifting around the zero

point slowly, displayed as zero. If

a strong parameter is set, a very

small zero drift may be not

detected.

If Cf00 1 is, the f01 0, 1, 6 or 7

can be selected only.

If Cf00 1 is, the initial setting is

f01 7.

0 No motion detection

1 0.5 d/ 0.5s

2 1.0 d/ 0.5s

3 2.0 d/ 0.5s

4 3.0 d/ 0.5s

5 4.0 d/ 0.5s

6 0.5 d/ 1s

7 1.0 d/ 1s

**8 2.0 d/ 1s

9 3.0 d/ 1s

f02

STABLE mark

Motion detection

condition

10 4.0 d/ 1s

The function to set the condition

of judgment whether a weight

value is unstable or stable. The

ZERO key and TARE key are

active in the stable state. If these

keys need to be active in the

unstable state, set to f02 0. In

case of Cf00 1 is, f02 6 or f02 7

can be selected only. (Initial

setting is f02 6.)

0 Once after the mark

1 Twice in succession

*2 Three times

f03

Auto Printing/

Auto Accumulation 3 Four times

Set the number of times when

the STABLE mark turned on in

succession, until output/print out.

If Cf00 1 is set, f03 2 or f03 3

can be selected.

d: division (weighing interval) of first range. s: second. *: Initial settings.

6.2. F-Functions


Display and Other General Functions


* 0 5 times/s f04

Display update rate 1 10 times/s

The selection in the unstable

condition.

1 x Key click (ON/OFF)

2 x LoLo / Zero band

3 x Lo

4 x OK

5 x HI

f05 [Type2]

Buzzer

6 x HiHi /

Batch finish / Full

Left: Item, select using the ZERO

key

Right: Parameter, select using

the 0 - 9 keys

0: no sound, 1: continuous

2: 4 times/s 3: 2 times/s

4: 1 time/s 5: 1 time/2a

Initial value is 11, others x0.

f06

Device ID(Address)

00 to

99

Command address

or DeviceID Initial setting is 00.

* 0 Disable f07

Counting function 1 Enable

*: Initial settings. s: second.

Key Switch


10 11 CODE key

20 21 SAMPLE key

30 31 SETPOINT key

40 41 PT key

50 51 TOTAL key

60 61 M+ key

70 71 START key

80 81 STOP key

90 91 “9” key

a0 a1 MODE key

b0 b1 ZERO key

C0 C1 TARE key

d0 d1 NET/GROSS key

e0 e1 PRINT key

f12 [Type2]

Disabling of key

switch

f0 f1 ZERO+TARE = CAL

Left: Key

Right: * 0 Enable

1 Disable

ZERO key to select switch

0, 1 key to select

Enable/Disable

These options could be ignored

when Ff13 to f15 is set to 17

and shorting the terminal to the

common.

*: Initial settings.

6.2. F-Functions


External Input


** 0 Not used (No function)

1 ZERO key

2 TARE key

3 NET/GROSS key

4 ON/OFF key

5 PRINT key, ENTER key

6 (No function)

7 Serial data output (Format 1)

8 Serial data output (Format 2)

9 Accumulation (M+)

10 Start batching

11 Stop batching

12 “Over” signal, Gross over and display data out when ON

13 NET weight display when shorting the terminal.

14 Accumulated data display when shorting the terminal.

15 Execute comparison when shorting the terminal.

16 Display by the second unit when shorting the terminal.

17 All keys are enable when shorting the terminal. (Ignores f12 temporary)

18 Inhibit memory code reading when shorting the terminal.

19 Start averaging to hold

f13

EXT1

Function selection of

external input

20 Release holding data

0 to 17, 19 and 20 Same as f13 f14

EXT2 18 Memory cord (BCD 1)

0 to 17, 19 and 20 Same as f13 f15

EXT3 18 Memory cord (BCD 2)


Accumulation


10 11 Do not add(0)/Add(1)

20 21 Manual(0)/Automatic(1)

30 31 + Only(0) / Both +/- (1)

f20 [Type2]

Accumulation Mode

40 41 OK only(0)/All data(1)

Left: Sub item, select using the

ZERO key

Right: Setting, select using the

0 , 1 keys

Initial settings: 10, 21, 31, 41

0 Add data anytime

** 1 Above 5 d

2 Above 10 d

3 Above 20 d

f21

Inhibit region for

accumulation

4 Above 50 d

The selection of the inhibit region

for accumulation.

Do not set f21 0 when Auto

accumulation (f20 21).

d: division (weighing interval) of first range. *: Initial settings.

6.2. F-Functions


Comparator


* 0 Not used

1 Upper/lower limit comparison (2 Limits)

2 Upper/lower limit comparison (Target and allowance)

3 Upper/lower limit comparison (Target and % allowance)

4 HH/Hi/OK/Lo/LL comparison (4 Limits)

5 HH/Hi/OK/Lo/LL comparison (Target and allowance)

6 HH/Hi/OK/Lo/LL comparison (Target and % allowance)

7 Check weighing 1

8 Check weighing 2

9 Check weighing 3

10 Simple batch 1

11 Simple batch 2

f22

Comparator function

12 Simple batch 3 (Loss in weight)

10 11 Includes zero band(1)

20 21 Includes minus(1)

30 31 Stable(0) /All time(1)

f23 (f22 1 to 6)

[Type2]

Validation of

comparison 40 41 All time(0)/Start, stop(1)

Initial settings are

11,21,31 and 40.

10 11 Tare when start(1)

20 21 Stop after Full by key(0)/Auto(1)

30 31 Over/Under judgment:

after dribble flow(0) / Batch finish(1)

f23 (f22 10 to 12)

[Type2]

Sub function for

batch weighing 40 41 No function

Initial settings are

11,21,31 and 40.

* 0 Over

1 Under

f24

Relay output

selection 2 Finish/Full (F22=9,10,12)

Effective when

f22 7,9,10 or 12.

f25

Batch finish output time

0.0 to

9.9

Relay on time by 0.1second step

(00 : continuous to zero band) Initial setting is 0.0.

f26

Zero band -999999 to 999999 Initial setting is 0.


Hold


** 0 Not hold (Hold function is off)

1 Manual hold

2 Auto hold

f27

Hold mode

3 Manual and Auto hold

f28

Averaging time

0.0 to

9.9

Averaging time by 0.1second step

(00 : hold at start time) Initial setting is 0.0.


6.2. F-Functions


Data Output *: Initial settings.


** 0 No data output

1 Analog output Set f31, 32, 33

2 Serial output

f30

Data output

3 Serial output (Zero suppressing)

RS-232C,

RS-422/485

Analog Output *: Initial settings.


* 0 Display data

1 Gross data f31

Output data 2 Net data

f32

Weight value at 4mA output -999999 to 999999 (Initial setting is 0)

f33

Weight value at 20mA output

-999999 to 999999 (Initial setting is

10000)

Polarity is

changed by pressing the +/-

key.

Serial Data Format


x 0 Terminator

x 1 Device ID (selected at f06)

x 2 Code number

x 3 Data number *

x 4 Result of comparison

x 5 (Reserved)

x 6 (Reserved)

x 7 Accumulated value

x 8 Accumulation count

x 9 Stable / Over

x a Displayed weight

x b Gross weight

x C Net weight

x d Tare weight

x e Weight type (G /N / T, refer to Cf06)

f34 [Type3]

Serial data format 1

Initial value

19, 2e, 3a 4f e50

f35 [Type3]

Serial data format 2

Initial value

17 2f e30

x f Weight unit (cf. Cf07)

ZERO key :

Order of output

(1 to 999)

“Exxx” indicates

the end of data

to output

NET/GROSS key:

Expand or

shorten output

data length

0 - 9 , A - F key:

output data

1 Comma of the parameter display indicates that the comma (f46 0, semi-colon for

f46 1) is output after the data. To turn this mark on and off, press the 9 key while

pressing NET/GROSS key.

Output of initial settings of f34(19, 2e, 3a 4f e50) is like “ST,GR,+12345.6kg”.

2 The data number *(parameter 3) increments automatically with each serial data

output from 1 to 99999 (the next after 99999 is 1). The starting number can be set

by the keys.

Press the CODE(1) key while pressing the PRINT key at weight display, the display

changes to data r then r xxx. “xxx” is the next data number. Using the 0 - 9 keys to

enter the number and pressing the ENTER key to store the number and return to

weight display.

6.2. F-Functions


Current Loop Output


** 0 Displayed data

1 Gross data

2 Net data

3 Tare data

f36

Output data

4 Gross data / Net data / Tare data

0 Stream mode

1 Manual mode

2 Auto print mode(+)

3 Auto print mode(+/-)

4 When accumulation, automatically output

f37

Output mode

** 5 Not used

** 0 No delay f38

Delay for continual data 1 2.0 seconds (F36=4, except F37=0)

0 600 bps

1 1200 bps f39

Baud rate ** 2 2400 bps

*: Initial settings. bps: bit per second.

Serial Interface


** 0 Stream mode, command is not acceptable

1 Manual mode, command is effective

2 Auto print mode(+), command is effective

3 Auto print mode(+/-), command is effective

4 When accumulation, automatically output

f40

Output mode

5 Command mode (output by command only)

0 No output

** 1 Manual, Fixed format

2 Auto, Fixed format

3 Manual, Format 1 (f34)

4 Auto, Format 1 (f34)

5 Manual, Format 2 (f35)

f41

Accumulated data

output at

accumulated data

display

6 Auto, Format 2 (f35)

** 0 No delay

1 0.5 second

2 1.0 second

3 1.5 seconds

f42

Delay for continual data

4 2.0 seconds

** 0 Not use f43

Command address 1 Use (Address determined f06)

** 0 Approx. 1 second f44

Time out 1 No limitation

** 0 CR, LF (0Dh, 0Ah) f45

Terminator 1 CR (0Dh)


6.2. F-Functions


Serial Interface (continue)


* 0 DP:point(.) / Delimiter:comma(,) f46

DP / Delimiter 1 DP:comma(,)/ Delimiter:semicolon(;)

Common to

sending/receiving

0 600 bps

1 1200 bps

** 2 2400 bps

3 4800 bps

f47

Baud rate

4 9600 bps

** 0 Data 7bits, Even parity

1 Data 7bits, Odd parity f48

Data bit, parity 2 Data 8bits, Non parity

*: Initial settings. bps: bit per second.

Description of "Stream Mode"

Object f37 0, f40 0

Operation Data is output in every sampling (when refreshing the display).

Use this mode to output data to an external display (Data may not be output

due to timing of the baud rate and internal sampling rate). If data is printed

with pressing the PRINT key on the printer, use the stream mode.

Description of "Manual Print"

Object f37 1, f40 1

Operation When pressing the PRINT key, the stable weighing data is output just once.

Description of "Auto Print Mode"

Object f37 2, f37 3, f40 2 or f40 3

Operation When the weight data varies from the "inhibit region for output" to the

"permission region of output", the stable data is output just once. If you use

this mode, set f02 except f02 0.

For weighing (and removing) each object and printing the data.

In case of f37 2, f40 2

"Inhibit region for output" +5d. +5d < "permission region of output".

In case of f37 3, f40 3

-5d "inhibit region for output" +5d.

"Permission region of output" < -5d, +5d < "permission region of output".

d: division (weighing interval) of the first range.

Description of "DelayDescription of "DelayDescription of "DelayDescription of "Delay for continual data" for continual data" for continual data" for continual data"

Object F38, F42

Operation This function can be used in the "Auto print mode" and "Manual print mode".

When using a non-buffered printer, set to f42 3 and f43 1 (or f38 1).

6.2. F-Functions


6.3. CF-Functions

Item Parameter Description * 0 No limitation Cf00

Zero track width, motion detection condition 1 Use limitation at f01, f02, f03, f27 and f28.

* 0 2% of CAP, Tare limit is 100 % CAP 1 10% of CAP, Tare limit is 100 % CAP 2 3% of CAP, Tare limit is 50 % CAP

Cf01 Zero range Turning display on, the range to zero display. 3 4% of CAP, Tare limit is 50 % CAP

0 Not to zero when turning the display on. * 1 10% of CAP 2 3% of CAP

Cf02 Power on zero range Turning display on, the range to zero display. 3 4% of CAP

0 Gross when displaying gross. 1 Gross Cf03

Zero tracking * 2 Gross or Net when displaying net.

TARE, ZERO in motion / TARE at negative gross * 0 Not accepted / Not accepted 1 Execute / Not accepted 2 Not accepted / Execute

Cf04 TARE, ZERO in motion / TARE at negative gross value

3 Execute / Execute

* 0 Not to output data at unstable value or over load. Effective in key mode.

Cf05 Output on over load and unstable state. 1 To output data always.

GROSS / NET / TARE / Preset TARE * 0 GR / NT / TR / TR 1 GR / NT / TR / PT

Cf06 Header 2

2 G_ / N_ / T_ / PT (_:Space 20h) * 0 Two digits Cf07

Figure number of unit 1 Three digits Serial output data

* 0 Not used (Ineffective) Cf08 Accumulation function 1 Used (Effective)

* 0 Used (Effective) Cf09 Digital Tare(PT) 1 Not used (Ineffective)

CAP : maximum capacity *: Initial settings Power on ZERO (CF02) Cf02 0 After power on, weight display starts immediately. Cf02 1,2,3 When the zero range is exceeded at power on, ------ is displayed. Press the ESC key to start weight display.

6.3. CF-Functions


7.7.7.7. TareTareTareTare

The function is used to display a net value with the container weight subtracted from

the total weight, if you place an object into a container to weigh it.

Using a serial interface such as the RS-232C, you can do this from the external

equipment.

Caution When turning the display off with Cf02 1Cf02 1Cf02 1Cf02 1, 2222 or 3333, the tare data is cleared.

When turning the power off, the tare data is cleared.

Weighing TareWeighing TareWeighing TareWeighing Tare

Operation Place the tare on the weighing unit. Press the TARE key to store the tare

weight after the STABLE mark turns on. The display changes to net.

Caution When displaying a negative gross value, tare can not be used(normally).

To enable tare at zero or a negative gross value, select a Cf 04Cf 04Cf 04Cf 04 parameter.

Digital InputDigital InputDigital InputDigital Input

Caution The input value is rounded off to the unit of division (weighing interval).

In the case of Cf02 1Cf02 1Cf02 1Cf02 1, 2222 or 3333(power-on zero), the displayed value will be

zeroed when turning the display on.

When using a multi-interval scale, the usable input range is the first range.

In the case of Cf09 1Cf09 1Cf09 1Cf09 1(To inhibit preset tare), preset tare can not be used.

Preset tare is stored as one of the code memory data. Refer “9. Code

Memory”.

Preset tare value can be set via the serial interface.

Step 1 Press the PT key to display the stored tare value.

When tare is cleared or is not used, the value is zero.

Step 2 Enter a new tare value using the 0 - 9 keys.

ENTER key The key to store a new tare value.

The net is displayed.

ESC key The key to return to weight display without changing the stored

value.

Clearing TareClearing TareClearing TareClearing Tare

When pressing the TARE key while gross is zero, tare is cleared and gross is

displayed.

When zeroing with the ZERO key, tare is cleared.

7. Tare


8.8.8.8. AccumulationAccumulationAccumulationAccumulation

The function accumulates weighing data and stores the total data and the

accumulation count. Data is stored in non-volatile memory, and is not lost even if

the power is turned off.

8.1.1. Preparation and Specification

Set the following parameters to use the accumulation function.

Select Cf08 1 for the CF-function so that the accumulation function becomes effective.

Specify the method of accumulation and data at f20 of the F-functions.

Specify the inhibit region for accumulation at f21 of the F-functions.

Selection of Accumulation Mode, F20 of the F-functions

There are two methods of accumulation; manual accumulation using the M+ key

and automatic accumulation.

The accumulated data can select "positive data only" or "both polarity data".

The accumulated data can select "result of comparison is OK only" or "all result".

Accumulation Condition, F21 of the F-function

In the case of manual accumulation mode, press the M+ key to accumulate

weighing data when the STABLE mark is turned on.

Data can be accumulated after the weight data enters the "inhibit region for output".

When connecting the power cord and turning the display on, the accumulation mode

takes the same action.

Inhibit region for accumulation F21 Description

Add data anytime f21 0 Stable data can be used anytime

Above 5 d f21 1 Factory setting

Above 10 d f21 2

Above 20 d f21 3

Above 50 d f21 4

Caution Do not set to f21 0f21 0f21 0f21 0 for the automatic accumulation mode.

If f21 0f21 0f21 0f21 0, it may add the same data two times or more.

Limitation of Accumulation Count and Total

The limitation of accumulation count is 999999.

The limitation of total is 999999, ignoring the decimal point.

If exceeding these limitations, the data is not accumulated.

Example: The decimal point to "0.0", the limitation is "99999.9".

8. Accumulation


8.1.2. Display and Operation

Action of Accumulating Data

When accumulating data, the display blinks once.

If the accumulated data is stored, the M+ mark is displayed.

Caution This function can not accumulate data with a different unit. Specify a unit

before use.

Display of Accumulation Data

When specifying Cf08 1 (Effective accumulation function) and pressing the TOTAL

key, the total is displayed and the total data is displayed with the M+ mark

blinking . Pressing the total key alternatively displays the accumulated data and

the accumulation count. Pressing the ESC key, the weight data is displayed.

The total data can be output. Refer to "Output of Accumulation Data".

Undoing the Accumulation Data

The last weight data can be deduced from the accumulated data unless new data

has been accumulated.

Step 1 Press the TOTAL key to display total and accumulated data.

Step 2 Press and hold the +/- key for more than 3 seconds. The display blinks once and

the data accumulated before accumulating the last weight data is displayed.

Caution External input can not be used.

Clearing the Accumulation Data

Step 1 Press TOTAL key to display total and accumulated data.

Step 2 Press and hold the ZERO key more than 3 seconds. The display blinks once and

the accumulated data is cleared.


Initializing the Data Number and Clearing the Accumulated Data at the same time

When the data number is included with the data of the serial data output, initializing

the data number and clearing accumulated data can be done at same time.

Step 1 Press TOTAL key to display total and accumulated data.

Step 2 Press and hold the ZERO and +/- keys at the same time for more than 3 seconds.

The display blinks once and the accumulated data is cleared. And the data

number is initialized (1).


8. Accumulation


Output of Accumulation Data

Accumulated data can be output to the serial interface.

Output by manual or automatic, and output data format is selected at f41 of the

F-function setting.

F41 Parameter Manual/Automatic Format

0 No output

* 1 Manual

2 Automatic Fixed format

3 Manual

4 Automatic Format 1(selected at f34)

5 Manual

Accumulated data

output at

accumulated data

display

6 Automatic Format 2(selected at f35)

Step 1 Press the TOTAL key to display total and the accumulated data.

Step 2 If automatic output is set, the data is output once at that timing.

Step 3 If manual output, by pressing the PRINT key while the accumulated data is displayed,

the data is output.

Fixed data format :

9.9.9.9. Code Memory Code Memory Code Memory Code Memory

This indicator has four code memories (1 through 4). Each code memory stores a set

of setpoints, preset tare and the unit weight for piece counting.

The data is stored in non-volatile memory, and is not lost even if the AC power supply

is disconnected or cut off.

Memory number 0 is a temporary memory and the data is lost when the AC power

supply is disconnected or cut off.

The active code memory number can be changed by key switch, external control

input, or a command via the serial interface.

The data set can be copied from one code memory to another code memory.

8. Accumulation


9.1.1. Using Code Memory

Step 1 Pressing the CODE key at the weight display, Cd x is displayed with the

present code memory number x blinking. Using the following keys:

0 - 4 key..................The key to input the code memory number.

CLEAR key ..............The key to reset the code memory number (0).

+/- key.....................The key to copy the data set to other code memory number.

Proceed to step 3.

ESC key ..................The key to return to the weight display.

ENTER key..............The key to set the code memory number, stop blinking.

Proceed to step 2.

Step 2 The code memory number is set and the blinking stops. Using the following keys:

SETPOINT key ........The key to set the comparison data. Refer "10.1.2. Setting

Upper/Lower Limit Value".

PT key.....................The key to set the preset tare data. Refer "7.1.2. Digital Input".

ESC key ..................The key to return to step 1.

ENTER key..............The key to store the selected code memory number's data

and to return to the weight display.

Step 3 Copy is displayed for 2 seconds and then C x-y is displayed with “y” blinking.

Using the following keys:

0 - 4 key..................The key to input the code memory number to be stored.

ESC key ..................The key to return to step 1.

ENTER key..............The key to copy number x's data to number y and to return

to step 1.

Changing the Code Memory Number by External Input

The code memory number can be changed by external input from OP-05 or

OP-08.

Set F14 and F15 to 18. (OP-08 has only one input; set F15)

F13=18 : Inhibit reading EXT.2 and EXT.3 to prevent unintentional reading when

switching the codes.

EXT.2 (f14) EXT.3 (f15) Code Memory number

ON ON 1 OFF ON 2 ON OFF 3 OFF OFF 4

9. Code Memory


10.10.10.10. ComparisonComparisonComparisonComparison

This function has the "upper / lower comparison", the "5-stage(HiIHi / Hi / OK / Lo /

LoLo) comparison", the "setpoint comparison" and the "simple batch". They compare

the weight data with preset parameters and can output the result of the comparison to

the display and buzzer, also to the relay-outputs of OP-03, OP-05 and OP-08.

Set the F-function f22 and f23 to use the "upper / lower comparison", the

"5-stage(HiHi / Hi / OK / Lo / LoLo) comparison" (these two comparison methods will

be combined and hereafter be called the "Weight check mode"), and f22 through f26

to use the "setpoint comparison" and the "simple batch".

Data is stored in non-volatile memory and is not lost even if the AC power supply is

disconnected or cut off.

10.1.10.1.10.1.10.1. Weight Check ModeWeight Check ModeWeight Check ModeWeight Check Mode

This function compares the weight data with the upper and lower limit values

(upper/lower limit comparison) or four limit values of HiHi, Hi, Lo and LoLo (5-stage

comparison), and displays, sounds the buzzer and/or outputs the results to the three

relays of HI, OK and LO. Use this comparison when judging whether a weight is

proper.

Set the F-function f22 to 1, 2 or 3 to use upper/ lower limit comparison and f22 to 4, 5

or 6 to use 5-stage comparison.

Select a parameter of the F-function f23 for the comparison condition.

Set the F-function f26 (zero band) if f23 10 (not to compare in the zero band).

Specify the upper and lower limit / HiHi, Hi, Lo, LoLo limit values.

When entering the limit value(s), it is not necessary to enter the F-function f22 and

f23 again unless comparison conditions are changed.

There are 3 type of limit values for each comparison.

(1) Set the limit value (upper and lower limit / HiHi, Hi, Lo, LoLo limit).

(2) Set the Target value and an acceptable tolerance(upper and lower) in weight.

The limit value is calculated automatically.

(3) Set the Target value and an acceptable tolerance(upper and lower) in

percentage of the target weight. The limit value is calculated automatically.

Example. Target = 50kg, Upper limit = 51kg, Lower limit = 48kg

(1) Hi(Upper limit) : 51 (kg), Lo(Lower limit) : 48 (kg)

(2) TG(Target) : 50 (kg), Hi(Upper acceptable tolerance) : 1 (kg),

Lo(Lower acceptable tolerance) : 2 (kg) not negative value

(3)TG(Target) : 50 (kg), Hi(Upper acceptable tolerance) : 2 (% of Target),

Lo(Lower acceptable tolerance) : 4 (% of Target) not negative value

10. Comparison


10.1.1. Condition Formula for Comparison

Comparison is performed based on the following formula.

Upper/lower comparison

Judge Condition Formula Display Output

HI Upper limit (Hi limit) value < Displayed value HI HI

OK Lower limit value Displayed value Upper limit value OK OK

LO Displayed value < Lower limit (Lo limit) value LO LO

5-stage comparison

Judge Condition Formula Display Output

HiHi HiHi limit value < Displayed value HI, 2 HI

HI Upper limit (Hi limit) value < Displayed value HI HI, OK

OK Lower limit value Displayed value Upper limit value OK OK

LO Displayed value < Lower limit (Lo limit) value LO LO, OK

LoLo Displayed value < LoLo limit value LO, 3 LO

The decimal point is not considered. Example: If the upper limit value is 10.0, enter 100.

These parameters are stored in non-volatile memory, and are not lost even if the

AC power is disconnected or cut off (except code 0 memory).

When the displayed value becomes an overload (positive over), HI (over) is output.

When the displayed value becomes an under load (negative over), LO (under) is output.

This function compares the Hi / HiHi limit value first.

This function does not check the relationship between the upper and lower limit values.

10.1.2. Setting the Upper/Lower Limit Values

Step 1 By pressing the SETPOINT key, the selected code memory number is displayed

and the first comparison class term (ex.Hi, TG etc.) is blinking.

Step 2 Select the comparison class using the following keys:

SETPOINT key ........The key to select a comparison class.

ESC key ..................The key to return to the previous stage (weight display or

code memory number select).

ENTER key..............The key to proceed to step 3.

Step 3 Set the setpoint values using the following keys.

0 - 9 key..................The key to enter a value.

ESC key ..................The key to proceed to the next comparison class (step 2)

without changing the set value.

ENTER key..............The key to store the value and proceed to the next

comparison class (step 2).

10.1. Weight Check Mode


Setting Order and Display for Weight Check ModeSetting Order and Display for Weight Check ModeSetting Order and Display for Weight Check ModeSetting Order and Display for Weight Check Mode

f22 MODE Display 1 2 3 4 5

1 Upper Setpoint Upper Lower Lower 1 Class Hi Lo Comparator HI LO

2 Upper Setpoint Target Upper Lower Lower 2 Class tG Hi Lo Comparator OK HI LO

3 Upper Setpoint Target Upper Lower Lower 3 Class tG Hi Lo Comparator OK HI LO Unit % %

4 5-stage Setpoint HiHi Hi Lo LoLo 1 Class HH Hi Lo LL Comparator HI HI LO LO Triangle 2 3

5 5-stage Setpoint Target HiHi Hi Lo LoLo 2 Class TG HH Hi Lo LL Comparator OK HI HI LO LO Triangle 2 3

6 5-stage Setpoint Target HiHi Hi Lo LoLo 3 Class TG HH Hi Lo LL Comparator OK HI HI LO LO Unit % % % % Triangle 2 3

10.1. Weight Check Mode


10.2.10.2.10.2.10.2. Setpoint ComparisonSetpoint ComparisonSetpoint ComparisonSetpoint Comparison

This function includes the weighing sequence and is uses for acquiring a preset

target weight.

There are four parameters of "Final", "Preliminary", "Free fall" and "Zero band"

that use the setpoint comparison.

The result of the sequence is output to the three relays of OP-03, OP-05 or OP-08.

When entering these parameters, it is not necessary to enter the F-function f22

again unless comparison conditions are changed.

10.2.1. Description of Input parameters and Outputs

f22f22f22f22 = = = = 7777 (Check weighing 1) (Check weighing 1) (Check weighing 1) (Check weighing 1)

Output and ConditionOutput and ConditionOutput and ConditionOutput and Condition

Relay OK output can be changed to OVER or UNDER by f24. The triangle 2 is not

displayed.

OVER/UNDER is judged always and the result is output to the LED and the relay.

f22f22f22f22 = = = = 8888 (Check weighing 2) (Check weighing 2) (Check weighing 2) (Check weighing 2)


OVER/UNDER is judged always and the result is output to the LED but not to the

relay.

Final

Weighing value

Calibrated Zero

Tare

Tared Zero Zero band

Free fall

Preset target weight

Time

Weighing trace

Relay HI, 1, Net � (Final - Free fall)

Relay LO, 3, Gross � Zero band ON

ON

ON

OFF

OFF

OFF

Final

Preliminary

Weighing value

Calibrated Zero

Tare

Tared Zero Zero band

Free fall


Time

Weighing trace

Relay HI, 1, Net � (Final - Free fall)

Relay OK, 2, Net � (Final - Preliminary)


ON

ON

ON

OFF

OFF

OFF

OFF

OFF

10.2. Setpoint Comparison


f22f22f22f22 = = = = 9999 (Check weighing 3:Loss in weight) (Check weighing 3:Loss in weight) (Check weighing 3:Loss in weight) (Check weighing 3:Loss in weight)


* Relay OK output can be changed to the OVER or UNDER by f24.

Triangle 2 is displayed when Gross � Full regardless of the f24.

OVER/UNDER is judged always and the result is output to the LED and the relay.

10.2.2. Simple Batch

The weighing sequences of Simple batch (f22 10, 11 or 12) are similar to those of

Check weighing (f22 7, 8 or 9) respectively. The differences are listed below.

1 Basically ON/OFF of the relay and the LED is reversed.

2 No judgement other than Zero band and Full before input Start signal.

3 The weighing completion condition is set by f23 2x and it is effective after Start.

4 The outputs of Preliminary and Free fall are off from weighing completion to the

next start.

5 Weighing completion can be output by f24 and f25.

6 The start signal can be accepted after weighing completion even the weight is not

within the zero band.

7 Over/Under output is set by f23 3x.

StartStartStartStart

Tare when the Start is input automatically if f23 11.

The READY mark turns off when the Start is input.

Weighing CompletionWeighing CompletionWeighing CompletionWeighing Completion

The weighing completion condition is set by f23 2x

f23 20 : Either the STOP key is pressed or the Batch stop input is on

f23 21 : Stable is detected after reaching Final

Before reaching Final, the STOP key or Batch stop input forces weighing

completion even if f23 21 .


Final

Weighing value

Calibrated Zero

Tare

Tared Zero

Zero bandFree fall


Time

Weighing

Relay HI, 1, -Net � - (Final - Free fall)

Relay OK*, 2, Gross � Full


ON

ON ON

OFF

OFF

OFF

OFF

OFF

OFF

ON


Toward the Zero bandToward the Zero bandToward the Zero bandToward the Zero band

Preliminary and Free fall output are holding the off state.

Over/Under comparison starts. If f23 30, judgment starts when Free fall turns on.

The judgment is not latched and the output is according to the state at the time.

The Weighing completion relay is turned on if f24 2. The on time is set by f25.

The READY mark is blinking regardless of f24 and f25.

Start is may be accepted at this state.

Returns to Zero bandReturns to Zero bandReturns to Zero bandReturns to Zero band

Over/Under and Weighing completion output is off.

The READY mark is turned on.

10.2.3. Setting the Parameters of Setpoint Comparison

Refer to "10.1.2. Setting Upper/Lower Limit Values".

Zero band value is set at f26 of the F-Function, and the value does not belong

to a specific code memory, but is used commonly.

Setting Order and Display for Setpoint Comparison and Setting Order and Display for Setpoint Comparison and Setting Order and Display for Setpoint Comparison and Setting Order and Display for Setpoint Comparison and Simple batchSimple batchSimple batchSimple batch

f22 MODE Display 1 2 3 4 5

7 Setpoint Setpoint Final Free fall Over Under Comparison Class Fi FF Hi Lo 1 Comparator OK HI LO Triangle 1

8 Setpoint Setpoint Final Free fall Preliminary Over Under Comparison Class Fi FF Pr Hi Lo 2 Comparator OK HI LO Triangle 1 2

9 Setpoint Setpoint Final Free fall Full Over Under Comparison Class Fi FF Fu Hi Lo 3 Comparator OK HI LO Triangle 1 2

10 Simple Setpoint Final Free fall Over Under Batch 1 Class Fi FF Hi Lo Comparator OK HI LO Triangle 1

11 Simple Setpoint Final Free fall Preliminary Over Under Batch 2 Class Fi FF Pr Hi Lo Comparator OK HI LO Triangle 1 2

12 Simple Setpoint Final Free fall Full Over Under Batch 3 Class Fi FF Fu Hi Lo Comparator OK HI LO Triangle 1 2



11.11.11.11. Hold FunctionHold FunctionHold FunctionHold Function

This function displays the hold weight data after averaging the weight data for a

specific period.

Useful to determine a living animal’s weight.

Averaging time can be set up to 9.9 seconds by a 0.1 second step.

3 methods are available to start averaging; manual start, start automatically after

stable and manual / automatic start.

Manual start is available with key switch or external input.

Serial interface commands are also available; averaging start, releasing the hold

data and outputting the hold state. Refer “13.3.4. Commands for Hold Function”.

Caution This function can not be use under Cf00 1Cf00 1Cf00 1Cf00 1.

Averaging can not start at a displayed value smaller than +/- 5 digits.

Data when the display is over is not included for averaging.

When powered off, hold is released automatically.

There is no peak hold function.

The Display and the Data Output of Hold and AverageThe Display and the Data Output of Hold and AverageThe Display and the Data Output of Hold and AverageThe Display and the Data Output of Hold and Average

The weight display is blinking during the averaging period.

The output data in the averaging period is the actual weight at the time.

The weighing unit is blinking when the weight display is in the hold state.

The output data format of the hold weight data is the same as that of the normal

weight data except the header of stable state is “HD” in the response to the “RW”

or “RW,n”(n=1 or 2) command.

Relations to the Other Functions Relations to the Other Functions Relations to the Other Functions Relations to the Other Functions

If automatic accumulation (f20 21) and/or auto print (f37 2, 3 f40 2, 3) is set,

accumulation and/or data output is performed after determining the hold data.

11.1.1. Setting the Hold Functions

f27 determines the method of starting the average.

f27 1 Manual start: Start the average and release with key switch

operation.

f27 2 Automatic start: After passing the inhibit region * and detect stable **,

starts the average automatically, releasing the data when the weight

returns to inhibit region.

f27 3 Both Manual start and Automatic start.

*inhibit region 0 +/- 5digit

**stable detection Satisfied both f02 and f03

11. Hold Function


f28 determines the averaging time by 0.1second step. f28 0 holds the data at

averaging start.

The key switch function as the HOLD key (Average start or release holding data)

is by pressing the TOTAL key while pressing the ENTER key.

The external input function of averaging start is 19 and hold release is 20 of f13,

f14 and f15. The function is accepted at the off to on edge of the external input.

Conditions of the Average and ReleaseConditions of the Average and ReleaseConditions of the Average and ReleaseConditions of the Average and Release

The method to start/stop the average and release the hold state depends on the f27.

Condition f27 1 f27 2 f27 3 Average start in the inhibit region No No No Average start with key switch (including unstable) Yes No Yes Average start with ext. input (including unstable) Yes No Yes Average start with command (including unstable) Yes Yes Yes Average start after passing the inhibit region and stable

No Yes Yes

Weight is entering the inhibit region at averaging Continue Stop Stop Weight is entering to over at averaging Pending Stop Pending Hold key input at averaging Stop Stop Stop Release input from external input at averaging Stop Stop Stop Release command input at averaging Stop Stop Stop Hold key input at hold Release Release Release Release input from external input at hold Release Release Release Release command input at hold Release Release Release Weight is entering the inhibit region at hold Continue Release Release Weight is going to over at hold Continue* Continue* Continue*

Pending: Suspend the count up timer and do not average under the condition.

Release: Key, ext. input and command are effective at over display.

Continue*: Continue hold, but over display.

Key input and command in the hold state Key input and command in the hold state Key input and command in the hold state Key input and command in the hold state

Release hold and perform key function:

Keys: TARE, ZERO, SETPOINT, TOTAL

Commands: MT, MZ, HC

Continue hold and perform key functions

Keys: NET/GROSS, Accumulation, Comparison start/stop

Commands: other commands

11. Hold Function


12.12.12.12. Counting FunctionCounting FunctionCounting FunctionCounting Function

This function determines the number of objects in a sample based on the unit

weight. Unit weight is stored one of the code memory data in non-volatile memory,

and is not lost even if the AC power supply is disconnected.

12.1.12.1.12.1.12.1. Using the Counting FunctionUsing the Counting FunctionUsing the Counting FunctionUsing the Counting Function

Preparation : Set f07 1 in the F-Functions.

Selects code memory number. Refer to “9.1.1. Using Code memory”.

Register the unit weigh. Refer to “12.2.Unit Weight Registration”.

Press the MODE key to enter the counting mode. The unit in the display changes

to pcspcspcspcs.

In the counting mode, TARE, ZERO, NET/GROSS and other operations are the same

as that in the normal weighing mode.

12.2.12.2.12.2.12.2. Unit Weight Registration Unit Weight Registration Unit Weight Registration Unit Weight Registration

There are two methods to register the unit weight. One is to weigh the actual samples

for an unknown object's unit weight and the other way by digital input of the unit

weight by key or via the serial interface.

The unit weight is one item of the code memory data. Select the code memory

number and start the unit weight registration in the weight display or piece count

display. The unit weight registration can not be done from the code memory

number display.

There is not the counting accuracy improvement function by re-calculating the

unit weight based on the actual weight.

Weigh Actual Samples

When the unit weight is unknown, prepare some samples to determine the unit weight.

Step 1 Enter the counting mode.

Step 2 Press the SAMPLE key to enter the unit weight registration. 5 0 or 5 -

is displayed and unit pcspcspcspcs blinks. the left side of the display is the number of

samples. The right side of the display indicates the weight, 0 means that the

weight is zero and - means that the display is not at zero.

Step 3 Select the number of samples and place the samples specified on the weighing

sensor unit. Using following keys:

0 - 9 key..................The key to set the number of samples. Maximum is 9999.

+/- key.....................The key to select the number of samples, 5, 10, 20, 50,100.

ZERO key................The key to set the zero point.

TARE key ................The key to tare. When using a container.

12. Counting Function


ENTER key..............The key to register the unit weight and return to the piece

count display. The unit weight is calculated automatically

with the weight and the number of samples.

Press ESC key while pressing the +/- key

The key to return to the piece count display without changing

the unit weight.

Notes It is preferable to have a large number of samples, to minimize the

counting error.

Press the ENTER key after the stable mark turns on.

If the total weight of the samples is too light and is not adequate to be

used as the unit weight, loUtloUtloUtloUt is displayed for 2 seconds and returns

to the registration display.

Digital input

When the unit weight is already known, digital input is available.

Step 1 Start with the normal weight mode.

Step 2 Press the SAMPLE key to enter the digital input of the unit weight. U xxx and the

weight unit is displayed with unit pcspcspcspcs blinking. Using following keys:

0 - 9 key..................The key to set the unit weight. Maximum is 5 digits.

+/- key.....................The key to select the weight unit of the unit weight.

ZERO key................The key to clear the digital input. U---- is displayed.

ESC key ..................The key to return to the normal weight display without

changing the registered unit weight.

ENTER key..............The key to register the unit weight and return to the normal

weight display.

Press the MODE key while pressing +/- key The key to shift the decimal point.

12. Counting Function


13.13.13.13. RSRSRSRS----232C Interface232C Interface232C Interface232C Interface

13.1.13.1.13.1.13.1. SpecificationSpecificationSpecificationSpecification

Transmission Asynchronous, bi-directional, half-duplex

Baud rate 600, 1200, 2400, 4800, 9600 bps

Data bits 7 bits, 8 bits

Parity bits 1 bit, Even or Odd (for 7data bits) or Non parity (for 8 data bits)

Start bit 1 bit

Stop bit 1 bit

Code ASCII

Terminator CR LF, CR (CR: 0Dh, LF: 0Ah)

Connector Terminal block

CircuitCircuitCircuitCircuit and Pin Connection and Pin Connection and Pin Connection and Pin Connection

Pin No. Signal name Direction Description 1 TXD Output Transmit data 2 RXD Input Received data 3 DSR Output Data set ready 4 SG - Signal ground 5 FG - Shield (Frame ground)

Bit Bit Bit Bit FormatFormatFormatFormat

data 7 bits

data 8 bits

13. RS-232C Interface

RS-232C

��

��

��

��

��

�

Shield


13.2.13.2.13.2.13.2. Data Data Data Data FormatFormatFormatFormat

There are two types of data format set at F-Function f34 and f35.

The initial data format of f34 is shown below.

Header 1 f34, 35 : 9 (Status)

ST Stable weight data.

US Unstable weight data.

OL Overload (Out of range).

HD Holded weight data (The response of the “RW and “RW,n” command).

Header 2 f34, 35 : e (weight type)

GS or G Gross data.

NT or N Net data

TR or T Tare data.

Data f34, 35 : a, b, C, d (weight data)

The first of the data bits is the polarity, "+" or "-".

When the data is zero, the polarity is "+".

8 digits including polarity and decimal point (dot or comma).

In case of "Out of range", the data are replaced by spaces except the decimal point.

Unit f34, 35 : F (unit)

In case of Cf07 0, the unit length is 2 digits.

In case of Cf07 1, the unit length is 3 digits. Depending on circumstances, an A&D

printer may not work correctly.

13.3.13.3.13.3.13.3. Command FormatCommand FormatCommand FormatCommand Format

Explanation of Explanation of Explanation of Explanation of CommandCommandCommandCommand

When performing a command, the received command or replay data is sent back.

When the received command can not be performed such as the "busy" state, the

code " I " is sent back. In this case, insert a delay time. Electrical noise may be

the cause of this error.

When receiving an undefined command (unknown command), a "?" is sent back.

13.2. Data Format

��

��

Cf06=0,1 Cf06=2 Cf07=0 Cf07=1 2 figures 3 figures

Header 1 Header 2 Unit

8 digit data Terminators

T S , S G + , 0 0 0 0 0 0. gk

T S S U L O D H

G N T T P

S GT NR TT P

g

CPt

gkg

tCP

gk

��

��

� ��

� ��

l t

b l

l t

b l z oy c

z o y c


When the memory is short to store the data of UFC commands, an “M” is sent back.

Optional addresses can be appended to a command. The address form is

"@address" and the address is specified at F-Function f06. The reply (data or

error code) is also sent with the address.

Example: Command is "Display net value". Address is 23.

Sending a command Sending a command with address

Unperformed command reply Unknown command reply

Memory overflow (for UFC commands)

13.3.1. Command to Request Data

Request DisplRequest DisplRequest DisplRequest Display Data (1)ay Data (1)ay Data (1)ay Data (1)

When receiving this command, returns the displayed data immediately.

Template RW

Command

Reply

Request Display Data (2)Request Display Data (2)Request Display Data (2)Request Display Data (2)

When receiving this command, returns the displayed data immediately with format 1

or 2.

Template RW,1 or RW,2

Command or

Reply Format1(f34) or Format2(f35)

Request Gross weightRequest Gross weightRequest Gross weightRequest Gross weight

When receiving this command, returns the gross data immediately.

Template RG

Command

Reply

13.3. Command Format

W R

G R

W R 1 , WR 2,

T S G , , S 00+ 21 .3 k0 g

T S G , , S 00+ 21 .3 k0 g

M

Terminators

Memory overflow error

Carriage return(0Dh)

Line feed(0Ah)

I

Unperformed command

Terminators

N M

Terminators

Command

Terminators

Command

NM@ 2 3

Address number

Unknown command

Terminators

?@ 2 3

Address number


Request Net weightRequest Net weightRequest Net weightRequest Net weight

When receiving this command, returns the net data immediately.

Template RN

Command

Reply

Request Tare weightRequest Tare weightRequest Tare weightRequest Tare weight

When receiving this command, returns the tare data immediately.

Template RT

Command

Reply

Request Accumulated DataRequest Accumulated DataRequest Accumulated DataRequest Accumulated Data

When receiving this command, returns the accumulated data immediately.

Template RA

Command

Reply Refer Fixed data format of “8.1.2. Display and Operation, Output of

Accumulation data”.

Is ZeroIs ZeroIs ZeroIs Zero

When receiving this command, returns “at zero point” or no immediately.

Template RZ

Command

Reply when at ZERO Not at ZERO

13.3.2. Commands to Control the Indicator

Zero DisplayZero DisplayZero DisplayZero Display

Sets the current display to the zero point.

Template MZ

Command

Reply

TareTareTareTare

Sets the current display to zero of the net data.

Template MT

Command

Reply

Clear Tare DataClear Tare DataClear Tare DataClear Tare Data

Clears the tare data and displays the gross data_.

Template CT

Command

Reply


Z M

Z M

T M

T M

T C

T C

Z R

A R

1 0

T R

N R

T S T , , R 00+ 21 .3 k0 g

T S N , , T 00+ 21 .3 k0 g


Display Gross DataDisplay Gross DataDisplay Gross DataDisplay Gross Data

Displays the gross data.

Template MG

Command

Reply

Display Net DataDisplay Net DataDisplay Net DataDisplay Net Data

Displays the net data.

Template MN

Command

Reply

Accumulation (M+)Accumulation (M+)Accumulation (M+)Accumulation (M+)

Accumulates the displayed data.

Template MA

Command

Reply

Clearing the Accumulated dataClearing the Accumulated dataClearing the Accumulated dataClearing the Accumulated data

Clears the accumulated data.

Template CA

Command

Reply

Changing the Weight Unit Changing the Weight Unit Changing the Weight Unit Changing the Weight Unit

Changes the weight unit.

Template UC

Command

Reply

Changing the Code MemoryChanging the Code MemoryChanging the Code MemoryChanging the Code Memory

Changes the code memory number.

Template SC,m

m: code memory number, 0 - 4

Command

Reply

Disabling Key SwitchesDisabling Key SwitchesDisabling Key SwitchesDisabling Key Switches

Disables the key switches. Once power off, no effect remains by this command.

Template DK,n

n: key switch number (0: all keys, 1 - F: refer F-Function f12)

Command ex. to disable SAMPLE key

Reply


C S 2 ,

C S 2 ,

C U

C U

A C

A C

A M

A M

N M

N M

G M

G M

K D 2 ,

K D 2 ,


Enabling Key SwitchesEnabling Key SwitchesEnabling Key SwitchesEnabling Key Switches

Enables the key switches that are disabled by the DK command. Not applicable to the

keys disabled by f12.

Template EK,n

n: key switch number (0: all keys, 1 - F: refer F-Function f12)

Command ex. to enable all keys

Reply

13.3.3. Commands to Set Parameters

Set Limit/Setpoint ValueSet Limit/Setpoint ValueSet Limit/Setpoint ValueSet Limit/Setpoint Value

Sets the limit or setpoint value of the comparison. The decimal point is not necessary.

Template Sm,n, [ value ]


n : setpoint order number, refer to "Setting the setpoint"

Command

Reply

Set Zero Band Set Zero Band Set Zero Band Set Zero Band

Sets the f26 value (zero band) of the comparison. The decimal point is not necessary.

Template SZ, [ value ]

Command

Reply

Set Preset TareSet Preset TareSet Preset TareSet Preset Tare

Sets the preset tare value. The decimal point is not necessary.

Template PT,m, [ value ]


Command

Reply

Set Unit Weight for Counting ModeSet Unit Weight for Counting ModeSet Unit Weight for Counting ModeSet Unit Weight for Counting Mode

Sets the unit weight value with decimal point.

Template UW,m, [ value ]


Command

Reply

W U 2 , 2 , 3.1

W U 2 , 2 , 3.1

T P 2 , 2 , 31

T P 2 , 2 , 31

K E 0 ,

K E 0 ,

Z S + , 4 7 8

Z S + , 4 7 8

1 S 3 , + , 061

1 S 3 , + , 061



13.3.4. Commands for Hold Function

Start Averaging to HoldStart Averaging to HoldStart Averaging to HoldStart Averaging to Hold

Starts averaging to hold. The reply differs with the conditions.

Template HS

Command

Reply Averaging start

Averaging now

Hold

Release the Hold DataRelease the Hold DataRelease the Hold DataRelease the Hold Data

Release the hold data or stop averaging and goes to the normal weighing mode.

Template HC

Command

Reply

Request Hold StateRequest Hold StateRequest Hold StateRequest Hold State

When receiving this command, returns the average/hold state immediately.

Template HD

Command

Reply Not hold nor averaging

Averaging now

Hold

13.3.5. Commands to Set Serial Data Output Format (UFC)

Set Serial Data FormatSet Serial Data FormatSet Serial Data FormatSet Serial Data Format

Sets the serial output data format.

Format 1 (2) data is stored in the same memory area of f34 (f35).

Template SFf, [ parameters ]

f: Format number, 1 or 2

Command

Reply


F S 1 $ , RG

S H

S H

D H 1 ,

D H 2 ,

D H

D H 1 ,

D H 2 ,

D H 0 ,

C H

C H

F S 1 $ , RG


13.4.13.4.13.4.13.4. UFC CommandUFC CommandUFC CommandUFC Command

UFC(Universal Flexi Coms) function enables editing the serial data output format

freely using the serial interface command.

For customizing the print out of the printer or efficient data collecting.

Output data is not only the indicator’s data/status but also characters at will.

It can output the control code* of the printer. (* depends on the individual printer)

There are 2 set of memories for storing the parameters.

UFC Command ParameterUFC Command ParameterUFC Command ParameterUFC Command Parameter

UFC commands such as SF1 have many parameters.

One command line can has a multiple number of parameters. Parameters are

stored in memory in order.

Multiple UFC commands are possible. The parameters are stored next to the last

parameter stored by the last UFC command.

Clear all of the data first, if storing a new set of parameters. The parameters in

the stored data can not be changed partially.

The various types of parameters and their descriptions are shown below.

data Weight, result of comparison etc.

$CL Clear previous settings. UFC command parameters can not be

changed partially.

$WT Displayed data

$GR GRoss data

$NT NeT data

$TR TaRe data

$HD HeaDer of Gross/Net/Tare or Preset tare. Refer to CF06.

$UT Weight UniT

$ST STable/Unstable

$CP Result of ComParison

$ID ID number specified at F06

$DN Data Number increments with each output automatically

$CD CoDe memory number

$AN Accumulation count

$TL TotaL weight

$CM CoMma

$CR CR code (0Dh)

$LF LF code (0Ah)

$DE DElete the last parameter

$DL Inserting DeLay time (0.1 second step)

Example: DL10: 1.0 second delay

13.4. UFC Command Parameter


strings

Output the specified strings, enclosed by a single quotation (’).

’ itself is described using three single quotations; ’’’.

Example: ’A & D’ ’This is a sample of ’’’ .’

Set data bit = 8 bit if using the 8 bit characters.

hexadecimal

Control code of the printer etc, preceded by #.

2 characters preceded by # is hexadecimal code.

Example: #09, #7C

The #FF code can not be used because it is used for internal control.

Example

SF1,$ID$DN$CR$LF$GR$UT$CR$LF

Serial output data format 1, ID number, data number, carriage return and line

feed, Gross weight, unit, carriage return and line feed.

SF2,’ Welcome to A & D’$LF’Total weight ’$AN$TL$LF$LF

Serial output data format 2, the strings ’ Welcome to A & D’ and line feed,

the strings ’Total weight ’ accumulation count, total weight, and 2 sets of line

feed.

13.4. UFC Command Parameter


14.14.14.14. RSRSRSRS----422/RS422/RS422/RS422/RS----484848485, Relay Output(OP5, Relay Output(OP5, Relay Output(OP5, Relay Output(OP----03)03)03)03)

Replacing the RS-232C interface with this option, the RS-422/RS-485 interface can

connect up to 32 indicators and control them from a computer or a PLC.

The functions of RS-422/RS-485 interface are common to RS-232C except for the

signal system.

The relays output the result of comparison.

Solid-state-relay

Maximum voltage DC50V

Maximum current DC100mA

Maximum resistance 8�

Pin connections and CircuitsPin connections and CircuitsPin connections and CircuitsPin connections and Circuits

Function Pin No. Signal name Direction Description 1 SDA Output Transmission A terminal 2 SDB Output Transmission B terminal 3 RDA Input Receive A terminal 4 RDB Input Receive B terminal

RS-422 RS-485

5 TRM - Terminator resistance(100�)

6 HI Output Relay output HI 7 OK Output Relay output OK 8 LO Output Relay output LO

Relay output

9 COM - Relay output common

Adaptable connector TM-BLA9 (of accessory)

Switching Between RSSwitching Between RSSwitching Between RSSwitching Between RS----422/RS422/RS422/RS422/RS----485485485485

Switching between RS-422/RS-485 is made with the slide switch (SW1) on the

OP-03 board.

14. RS-422/485, Relay Output (OP-03)

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Relay Output Terminals

RS-422 Output

RS-485 Output

RS-422 Input

RS-485 Input

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RS-422/RS-485 Terminals

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ConnectionConnectionConnectionConnection

The polarity of signal A and B may vary with different computers.

It is not necessary to ground the SG terminal when using a computer without a signal

ground terminal.

RS-422 RS-485

14. RS-422/485, Relay Output (OP-03)

RDA

RDB

SDA

SDB

SDA

SDB

RDA RDB

TRM

SDA SDB

RDA RDB

TRM

SDA

SDB

RDA RDB

TRM

SDA

SDB

RDA RDB

TRM

SDA

SDB

RDA RDB

TRM

A

B

Some computers haveterminators inside.

Connect a terminator to the end connection. Internal termination resister is effective when the TRM terminal is connected to the RDB terminal.

SDA

SDB

RDA RDB

TRM

AD-4407 #32

Address f06 32

AD-4407 #32

Address f06 32

AD-4407 #2

Address f06 2

AD-4407 #2

Address f06 2

AD-4407 #1

Address f06 1

AD-4407 #1

Address f06 1

Host computer Host computer


15.15.15.15. Relay Output & Control Input (OPRelay Output & Control Input (OPRelay Output & Control Input (OPRelay Output & Control Input (OP----05)05)05)05)

Replacing the RS-232C interface with this option, 3-relay outputs and 3-control inputs

can be used with the RS-232C interface of this option.

RS-232C functions are the same as the RS-232C interface described in “13. RS-232C

Interface”.

The solid state relays output the result of comparison.

The control inputs can control the indicator from an external terminal just like the front

panel key operations.

Set the external control function at f13 - f15 of the F-Functions.

When connecting each function pin to the common pin, the indicator makes the action.

Keep a signal width of more than 100ms for the On-time and Off-time.

ON(Make)

OFF(Break)

Pin coPin coPin coPin connections and Circuitsnnections and Circuitsnnections and Circuitsnnections and Circuits

Function Pin No. Signal name Direction Description 1 TXD Output Transmit data 2 RXD Input Received data 3 DSR Output Data set ready

RS-232C

4 SG - Signal ground 5 HI Output Relay output HI 6 OK Output Relay output OK 7 LO Output Relay output LO

Relay output

8 COM(out) - Relay output common 9 EXT1 Input Control input 1 (f13)

10 EXT2 Input Control input 2 (f14) 11 EXT3 Input Control input 3 (f15)

Control input

12 COM(in) - Control input common FG 13 FG - Frame ground (case)

15. Relay Output & Control Input (OP-05)

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Relay output RS-232C

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Control input Case

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Relay specifications Maximum voltage DC50V Maximum current DC100mA Maximum resistance

8�

More than 100msMore than 100ms


16.16.16.16. 4444----20mA Analog Output (OP20mA Analog Output (OP20mA Analog Output (OP20mA Analog Output (OP----07)07)07)07)

The OP-07 analog output option is for sending the weight data to an analog input unit.

The output is a 4mA to 20mA current output proportional to the display reading.

The output data is updated in synchronization with the display update.

SpecificationsSpecificationsSpecificationsSpecifications

Output current 4mA to 20mA * Non-linearity Less than +/� 0.1% fs

Load resistance 0 to 510 � Temperature ZERO Less than +/� 0.02% fs/°C

Resolution Approx. 1/10000 coefficient SPAN Less than +/� 0.02% fs/°C

Output terminal Connector terminal No.1 : + No.2 : � No.3 : FG(Earth)

* When set to a non-weight display (Calibration,

F-settings etc.), the output current is 4mA.

The output current is not adjustable.

SettingsSettingsSettingsSettings

Set f30 1 of the F-Function, and set f31 to f33.

Item Parameter Remarks

f30 ** 0 No output Initial setting

Data output 1 Analog output Must be set to 1

2 Serial in/out 1

Data

output

3 Serial in/out 2

f31 ** 0 Displayed value Initial setting

Output data 1 GROSS weight

2 NET weight

f32

Weight value at 4mA

-999999 to 999999

(Initial setting is 0)

Decimal point is set

at Cal5et

Analog

output

f33

Weight value at 20mA

-999999 to 999999

(Initial setting is 10000)

Decimal point is set

at Cal5et

Settings of f32 and f33

When entering the f32 or f33 settings

(press the ENTER key when “32” or “33” is

blinking), the setting value is displayed.

Set the value using the 0 - 9 key. By

pressing the +/��key, the polarity of the

value can be alternated. Press the

ENTER key to store the setting value into

memory. After this the display returns to

selection of the Function number.

16. 4-20mA Analog Output (OP-07)

Analog output terminal

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Output current

Weight

20mA

4mA

f32 a f33 af32 b f33 b

a b


17.17.17.17. Current Loop Output (OPCurrent Loop Output (OPCurrent Loop Output (OPCurrent Loop Output (OP----08)08)08)08)

Replacing the RS-232C interface with this option, current loop output, 3-relay outputs

and 1-control input can be used with the RS-232C interface of this option.

RS-232C functions are the same as the RS-232C interface described in “13. RS-232C

Interface”.

The solid state relays output the result of comparison.

The control input can control the indicator from an external terminal just like the front

panel key operations.

Set the external control function at F15 of the F-Functions.

When connecting the function pin and the common pin, the indicator makes the action.

Keep a signal width of more than 100ms for the On-time and Off-time.

ON(Make)

OFF(Break)

Pin connections and CircuitsPin connections and CircuitsPin connections and CircuitsPin connections and Circuits

Function Pin No. Signal name Direction Description 1 TXD Output Transmit data 2 RXD Input Received data 3 DSR Output Data set ready

RS-232C

4 SG - Signal ground 5 HI Output Relay output HI 6 OK Output Relay output OK 7 LO Output Relay output LO

Relay output

8 COM(out) - Relay output common 9 CL1 Output Current loop output 1 Current

loop 10 CL2 Output Current loop output 2 11 EXT3 Input Control input 3 (F15) Control

input 12 COM(in) - Control input common FG 13 FG - Frame ground (case)

17. Current Loop Output (OP-08)

Current loop output

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Relay output RS-232C

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Control input

Case

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Current loop

Relay specifications Maximum voltage DC50V Maximum current DC100mA Maximum resistance

8�

More than 100msMore than 100ms


Current Loop OutputCurrent Loop OutputCurrent Loop OutputCurrent Loop Output

The current loop output can be used to output the data to an A&D printer and a display unit.

The current loop output is of the passive type and requires an external current source

of 20 mA current. A&D’s printer and display unit can be connected without an external

power source, because they supply the current.

The output terminals do not have a polarity. Each output terminal can be connected to

either the plus or minus inputs of the peripheral unit.

Set f36, f37, f38 and f39 of F-Functions. Please note the initial setting of f37 is

disabling the current loop output.

Data formatData formatData formatData format

The data format is the same as that of the initial setting of f34 of RS-232C data format.

The current loop output data format is fixed and can not be changed.

The header 2 and the unit selection are common to RS-232C (Cf06, Cf07).

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Cf06=0,1 Cf06=2 Cf07=0 Cf07=1 2 figures 3 figures

Header 1 Header 2 Unit

8 digit data Terminators

T S , S G +, 0 0 0 0 0 0. gk

T S S U L O

G N T T P

S G T N R T T P

g

CPt

gkg

tCP

gk

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17. Current Loop Output (OP-08)


18.18.18.18. SpecificationsSpecificationsSpecificationsSpecifications

Analog Input and A/D ConversionAnalog Input and A/D ConversionAnalog Input and A/D ConversionAnalog Input and A/D Conversion

Input sensitivity Up to 0.25 �V/division

Input signal range -1 mV ~ 15 mV

Load cell excitation voltage 5V DC 5%, 120 mA with sense voltage input

Load cell drive capacity Maximum 8 x 350 � load cells

Temperature Zero (0.2 �V + 0.0008 % of zero adjustment voltage)/°C (typ.)

coefficient Span 0.0008%/°C of reading (typ.)

Non-Linearity 0.01 % of full scale

Maximum input noise Less than 0.4 �Vp-p

Input impedance 10 M� or more

A/D conversion method Integrating dual slope type

A/D resolution count 40000 counts

A/D conversion rate and

display update rate Approximately 10 times/s

Maximum display resolution 20000 (permissible 40000)

Digital SectionDigital SectionDigital SectionDigital Section

Measurement display 7 segment, Vacuum fluorescent display tube

Character color Cobalt-blue

Character height 20 mm

State indicator Symbol

Minus sign, Zero point, Stable, Net, Preset tare value,

Storing accumulation data, Percentage,

Various state indicator (triangle 1,2,3)


Comparison result HI, OK, LO

Character color Red for HI and LO, Green for OK

Unit kg, g, t (lb, oz, lb-oz / catty, tl, catty-tl : depends on country)


InterfaceInterfaceInterfaceInterface

RS-232C interface Serial interface for communication (terminal block)

RS-422/485 interface Serial interface for communication, control (terminal block)

Current Loop output 20mA, passive type (terminal block)

Analog output 4-20mA, free scaling output (terminal block)

External Control Input 3 or 1 input selected functions (terminal block)

3 point (terminal block)

Capacity: 50V AC/DC, maximum current 100mA (resistive load)

Comparison mode selection

HiHi, Hi, OK, Lo, LoLo output for limit comparison

Relay output

Zero band, preliminary, free fall, final for setpoint comparison

18. Specifications


GeneralGeneralGeneralGeneral

Power supply Selection by internal connector from 100V AC, 120V AC,

200V AC and 230V AC, +10% to -15%, 45Hz to 65Hz

Power consumption Approximately 20VA

Operation temperature -10°C to +40°C (14°F to 104°F)

Operation humidity 85% R.H. (no condensation)

Mass 1950g approximately

Dimensions 199(W) x 206(H) x 80(D) mm

Accessories Refer to "4.1.4. Accessories and Option"

18.1.18.1.18.1.18.1. DimensionsDimensionsDimensionsDimensions

18.1. Dimensions

Weighing Indicator

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